The LL-module#1
is a 'Lunar Lander-module' similar in construction to the 'Modoolar hab-module#2'.
The main difference is that the LL is capable of landing on the lunar surface by its own
power (landing is not to be attempted elsewhere).

It is basically a container that can be equipped with anything from
living-quarters, to full-fledged research-labs, or just stuffed with cargo destined for
the lunar surface. Depending upon its internal configuration set-up, it can house up to
approximately 5 people. It is not meant to serve as a hab-module however, since a lot of
the interior space is used by engines and fuel-cells, but merely as a transport container
between the lunar surface and an orbiting vehicle.

The LL has the same attitude thrust performance as the hab-module#2,
but has in addition 4 hover-thrusters located within its 2 ground-resting
surfacecontact-rings (the 2 blue bodies seen in the lower part of the picture). The
LL-module is simply parked on these rings directly on the lunar surface.

The LL has enough fuel onboard to make it capable of 1 lunar return
trip.

It is revolutionary in the way it is operated, since it is to be
somewhat regarded as a rather large MMU. Normal procedures will have 1 astronaut on EVA
(wearing a special enhanced MMU) docking to the LL and landing it from this 'outside'
position. In other words, the LL is to be 'carried' by the astronaut as a rather large
'backpack'.The astronaut controls LL via 2 small finger-joysticks located on his
special MMU (1 controls attitude and 1 controls thrust (up/down) + program selection
(left/right)). There are also 2 small MFDs for the astronaut to keep track of positional
data and various flight data (descend speeds, altitude and so on).

The LL-module supports continued module extension in 2
space-directions.

LandingEarth Moon#1:Turn autopilot "+normal" ("-normal"
(antinormal) can also be used if preferred (if lighting conditions are more
favorable/comfortable when at this attitude, for instance)) and wait for the autopilot to
stabilize#2:Engage full hoverthrust#3:Disable autopilot#4:Roll gently to a 'heads-up' attitude, as required, to maintain a
descend speed of no greater than ~100m/s (do not change pitch or yaw)#5:When close to the surface (~1000 meters), engage altitude-hold
autopilot and turn prograde (not by autopilot, but manually) and engage level-hold
autopilot (you should be in a heads-up attitude facing the direction of motion)#6:Maintain low forward velocity untill within range of desired
landing-spot (if required: pitch down/forward to maintain forward velocity, but do not
disengage level-hold autopilot)#7:Pitch up/backwards to dissipate speed and disengage altitude-hold
autopilot (do not disengage level-hold autopilot)#8:Gently touch down at desired landing location manually and cut
hoverthrust